STAT3 activation is commonly observed in HCC progression and is known to be triggered by cytokines such as interleukin-6 through Janus kinases, by activated tyrosine kinase receptors such as EGFR, or by nonreceptor tyrosine kinases such as SRC.28 Future experiments designed to identify pathways mediated by the amplification of two genes and increasing the phosphorylation of STAT3 could lead to the development of new HCC therapeutics. In conclusion, we have
systematically developed a highly applicable protocol and criteria with commercially accessible high-density SNP arrays and freely available analysis software ABC294640 in vitro to search for target genes in cancer genomes via the scanning of common amplicons and HDs in multiple cancer cells. Our current protocol for CNA analysis, featuring the use of healthy individuals as normal reference controls (either self-prepared or downloaded), allows
researchers to rapidly analyze on a large scale cancer genomes from public domains, regardless of the platform formats. Using stringent criteria and a validation process, our approach may facilitate the discovery LGK-974 manufacturer of common and novel cancer genes and thus result in a better understanding of the mechanisms of tumorigenesis and in diagnostic and predictive biomarkers and therapies for cancer. The authors thank Dr. Pei-Jer Chen and Dr. Ding-Shinn Chen (School of Medicine, National Taiwan University) for their advice on this work. The authors also acknowledge the core facilities of the National Research Program for Genomic Medicine of the National Science Council of Taiwan, including the National Genotyping Center for its help with SNP genotyping and the National RNAi Core Facility for its provision of shRNAs. Additional Supporting Information may be found in the online version of this article. “
“In 1964, Vincent Allfrey discovered histone acetylation
and prophetically predicted its effect on gene transcription.[1] It was not until 1990 that the phenotypic effects of histone deacetylase (HDAC) inhibitors were first demonstrated in cancer cells.[2] Then, in late 2006, Vorinostat 上海皓元 became the first HDAC inhibitor to be approved by the U.S. Food and Drug Administration for human use (cutaneous T-cell lymphoma).[3] Although most of the preclinical data and clinical trials to date with HDAC inhibitors are in cancer, emerging evidence suggests their potential therapeutic role in nonmalignant disease. For example, because of their effects on transcription, HDAC inhibitors were recently implicated in inflammatory conditions, such as rheumatoid arthritis.[4, 5] However, in the field of nonalcoholic steatohepatitis (NASH), in the 49 years since Allfrey’s observation, only nine manuscripts containing “NASH” and “histone” in their main text were published. The study by Tian et al. in this month’s edition of HEPATOLOGY is one of these nine papers.